JP3931838B2 - Electronic musical instruments - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a wind instrument type electronic musical instrument having a mouth input unit and a pitch designating unit for designating a pitch.
[0002]
[Prior art]
Conventionally, a wind instrument type electronic musical instrument is known in which a sound is generated by instructing sound generation by a mouth input unit and by specifying a pitch by a pitch specifying unit or a pitch specifying unit and a mouth input unit. ing. In this musical instrument, the pitch designating part is usually provided in the body part, and the pitch designating part is provided with an operator which is a movable body such as a piston type operated by a finger.
[0003]
For example, in Patent Document 1 below, a mouthpiece as a mouth input unit is provided at the tip of a tube body, and a sheet-like switch that is turned on and off by a plurality of note keys and each note key as a manipulator on the body portion of the tube body And the pitch is designated by operating a note key.
[0004]
[Patent Document 1]
JP-A-01-243097
[0005]
[Problems to be solved by the invention]
However, for example, when configuring a trumpet type electronic musical instrument, it is usually required that an operator for designating a pitch be formed in a piston type to resemble an acoustic trumpet. In that case, the stroke also needs to be relatively long, and the reciprocating operation of the operator tends to become unstable.
[0006]
For example, in Patent Document 1, the case where the invention is applied to a valve-type switch is illustrated in the fourth embodiment (FIG. 7). However, in the above-mentioned Patent Document 1, since the guide property of the reciprocating operation of the operation element is not considered, for example, when the direction of the force applied to the operation element is greatly deviated from the axis along the operation direction, the rattling occurs. In addition to poor durability, there is a problem that stable switch operation cannot be expected.
[0007]
In addition, for a switch for pitch designation in the pitch designation section, it is conceivable to provide an optical detection means in order to ensure stable operation detection and durability of the operation element. However, for example, a photocoupler and a shutter unit are necessary, and the configuration tends to be complicated.
[0008]
The present invention has been made to solve the above-described problems of the prior art, and an object of the present invention is to provide an electronic musical instrument that has a simple configuration, ensures durability, and realizes stable switch operation. There is.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, an electronic musical instrument according to a first aspect of the present invention includes a body part (3), a mouth input part (2), and a pitch designating part provided on the body part for designating a pitch. (SHI), wherein the pitch designating part is reciprocated with respect to the fixed part by being operated with a fixed part (KO) fixedly provided to the body part. A movable body (PST) that operates, and a pitch switch unit (15, 38) that specifies a pitch by performing a switch operation based on the operation of the movable body, and is configured along the operation direction of the movable body. A guide protrusion (13, 22) is integrally provided on at least one of the fixed portion and the movable body, and a guided portion (36, 37, 38) is provided on the other of the fixed portion and the movable body. Is provided integrally, and over the entire stroke of the reciprocating motion of the movable body, The reciprocating motion of the movable body is guided by the mutually opposing portions of the id protrusion and the guided portion being in sliding contact with each other at a plurality of locations having different positions in the movement direction of the movable body. It is structured.
[0010]
According to this configuration, since the guide protrusion is integrally provided on at least one of the fixed portion and the movable body, and the guided portion is integrally provided on the other, the configuration is simple. Further, the mutually opposing portions of the guide ridge and the guided portion are in sliding contact with each other at a plurality of locations having different positions in the operation direction of the movable body, so that the reciprocating operation of the movable body is guided over the entire stroke. Therefore, there is no backlash, for example, stable operation is expected even when applied to a switch with a long stroke, and there is durability. Therefore, with a simple configuration, it is possible to ensure durability and realize a stable switch operation.
[0011]
In order to achieve the above object, an electronic musical instrument according to a second aspect of the present invention comprises a body part (3), a mouth input part (2), and a pitch designating part provided on the body part for designating a pitch. (SHI), wherein the pitch designating part is reciprocated with respect to the fixed part by being operated with a fixed part (KO) fixedly provided to the body part. A movable body (PST) that operates, and a pitch switch unit (15, 38) that specifies a pitch by performing a switch operation based on the operation of the movable body, and is configured along the operation direction of the movable body. A guide protrusion (13, 22) is integrally provided on at least one of the fixed portion and the movable body, and a guided portion (36, 37, 38) is provided on the other of the fixed portion and the movable body. Is provided integrally, and over the entire stroke of the reciprocating motion of the movable body, The relative id protrusion portion that at least one part of the guide portion comes into sliding contact with surface contact, characterized in that the reciprocating movement of the movable member is configured to be guided.
[0012]
According to this configuration, since the guide protrusion is integrally provided on at least one of the fixed portion and the movable body, and the guided portion is integrally provided on the other, the configuration is simple. Moreover, since the reciprocating motion of the movable body is guided over the entire stroke by sliding at least one part of the guided portion in a surface contact state with respect to the guide protrusion, there is no rattling. For example, even when applied to a switch having a long stroke, stable operation is expected and durability is also achieved. Therefore, with a simple configuration, it is possible to ensure durability and realize a stable switch operation.
[0013]
  In order to achieve the above object, an electronic musical instrument according to a third aspect of the present invention is an electronic musical instrument having a trunk portion, a mouth input portion, and a pitch designation portion provided in the trunk portion for designating a pitch. The pitch designating part includes a fixed part fixed to the body part, a movable body that reciprocates with respect to the fixed part when operated, and an operation of the movable body. And a pitch switch unit that designates a pitch based on a switch operation. The pitch switch unit includes a photocoupler provided in the fixed unit, and the movable body corresponding to the photocoupler. And a shutter function part (38) formed integrally with theThe fixed portion is provided with a stopper that abuts on the movable body and regulates a lower limit position of the movable body, and the stopper has a function of shielding disturbance light from below the movable body toward the photocoupler. Configured to fulfillIt is characterized by that.
[0014]
According to this configuration, since the pitch switch unit includes the photocoupler and the shutter function unit, high durability and stable switch operation are expected by optical switch operation. Further, since the shutter function unit is formed integrally with the movable body, the configuration is simple. Therefore, with a simple configuration, it is possible to ensure durability and realize a stable switch operation.
[0015]
In order to achieve the above object, an electronic musical instrument according to a fourth aspect of the present invention is an electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch. The pitch designating part includes a fixed part fixed to the body part, a movable body that reciprocates with respect to the fixed part when operated, and an operation of the movable body. And a pitch switch unit that designates a pitch based on a switch operation, and a plurality of units for slidingly contacting the movable body and guiding the reciprocating operation when the movable body reciprocates with the fixed portion. Guide ridges (13) are provided along the direction of movement of the movable body, and the pitch switch portion of the fixed ridges is adjacent to the guide ridges of the plurality of guide ridges. Photo camera provided in at least one gap formed between the sections And La, and wherein the constructed and a shutter function portion which is integrally formed (38) on said movable member in response to the photocoupler.
[0016]
  According to this configuration, since the pitch switch unit includes the photocoupler and the shutter function unit, high durability and stable switch operation are expected by optical switch operation. Further, since the reciprocating motion of the movable body is guided by the plurality of guide protrusions, stable operation is expected. Furthermore, since the photocoupler is provided in at least one gap formed between the adjacent guide protrusions, the guide protrusion also serves not only as a guide function but also as a light shielding function for the photocoupler. Therefore, the pitch switch unit is configured with a simple configuration. Further, since the shutter function unit is formed integrally with the movable body, the configuration is simple. Therefore, with a simple configuration, it is possible to ensure durability and realize a stable switch operation.
  In order to achieve the above object, an electronic musical instrument according to claim 5 of the present invention is an electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided in the body part for designating a pitch. The pitch designating part includes a fixed part fixed to the body part, a movable body that reciprocates with respect to the fixed part when operated, and an operation of the movable body. And a pitch switch unit that designates a pitch based on a switch operation. The pitch switch unit includes a photocoupler provided in the fixed unit, and the movable body corresponding to the photocoupler. And a reciprocating operation of the movable body corresponding to the movable body in the fixed section. Sometimes it is in contact with the movable body to guide its reciprocation. Le-shaped guide protrusions are provided along the direction of movement of the movable body, the reflector, characterized in that provided in the ridge for the rail-like guide.
  In order to achieve the above object, an electronic musical instrument according to a sixth aspect of the present invention is an electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch. The pitch designating part includes a fixed part fixed to the body part, a movable body that reciprocates with respect to the fixed part when operated, and an operation of the movable body. And a pitch switch unit that designates a pitch based on a switch operation. The pitch switch unit includes a photocoupler provided in the fixed unit, and the movable body corresponding to the photocoupler. And a reciprocating operation of the movable body corresponding to the movable body in the fixed section. Sometimes it is in contact with the movable body to guide its reciprocation. Two guide ridges in the shape of a rod are provided along the direction of movement of the movable body, and the reflecting plate faces the fixed portion and the photocoupler, and the two guide ridges It is provided between the parts.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0018]
(First embodiment)
FIG. 1A is a plan view of the electronic musical instrument according to the first embodiment of the present invention, and FIG. 1B is a right side view of the electronic musical instrument. This musical instrument is configured to generate a musical tone with the same shape and operation as a trumpet.
[0019]
As shown in FIG. 2B, the electronic musical instrument 1 is roughly composed of a mouth input unit 2, a body unit 3, and a morning glory unit 4. Hereinafter, as the front, rear, left, and right and up and down directions, directions based on the player when the body part 3 is substantially horizontal are used.
[0020]
As shown in FIG. 2A, the electronic musical instrument 1 is formed by joining a left case 5L and a right case 5R with a parting line PL corresponding to their mating surfaces. As shown in FIG. 2B, the morning glory portion 4 is provided with a speaker 7, and a speaker-like speaker grill 8 is attached to the speaker 7. When joining the left case 5L and the right case 5R, the combined strength of the cases 5L and 5R is improved by fitting the speaker grille 8 to the morning glory 4 portion of the left case 5L and the right case 5R. Yes. The right case 5R is provided with a musical tone parameter setting switch group 10. A processing circuit unit such as a sound source (not shown) is provided inside the musical tone parameter setting switch group 10.
[0021]
A fixed portion KO is provided at a substantially central portion in the front-rear direction of the electronic musical instrument 1. The fixing part KO includes a left fixing part KOL and a right fixing part KOR, and the left fixing part KOL and the right fixing part KOR are formed integrally with the left case 5L and the right case 5R, respectively. Further, in the front-rear direction of the electronic musical instrument 1, three piston-type operating elements PST (PST (1) to PST (3)) are provided above the fixed portion KO. Further, a bottom lid / stand 6 described later is attached to the lower portion of the fixed portion KO.
[0022]
Since the portion composed of the fixed portion KO, the three operating elements PST, and the bottom lid / stand 6 is a power source portion and a portion for performing an operation for designating a pitch, these are hereinafter referred to as “power source and operating mechanism”. Part EM ".
[0023]
The mouth input unit 2 includes a microphone, and a voice uttered by the player is input. Then, it is determined by a processing unit (not shown) which pitch range of the input voice belongs to which pitch range is divided into a plurality of ranges in advance. On the other hand, pressing operations of the three operators PST are detected independently. Then, under the control of a musical tone control unit (not shown), the mouth input unit 2 has a pronunciation pitch determined by the input pitch by the mouth input unit 2 and the operation state of the operation element PST (there are eight combinations). A musical sound is generated from the speaker 7 using the voice input by the sound generation trigger.
[0024]
In the present embodiment, the input or operation of the mouth input unit 2 and the operation element PST is involved in the determination of the sound production pitch, but it may be determined only by the operation of the operation element PST. The data detected by the mouth input unit 2 is not limited to the pitch of the voice. For example, the pressing force PL and the expiratory pressure PB of the player's lips are detected, and these data are used to determine the pronunciation pitch. You may make it use for.
[0025]
A finger hook 9 is provided near and in front of the power supply and operation mechanism EM. In addition, you may provide the strap holder which also serves as a score holding | maintenance function in the morning glory part 4 and rear part of the electronic musical instrument 1. FIG.
[0026]
2 and 3 are diagrams showing the internal configuration of the power supply and operation mechanism unit EM. FIG. 2 mainly shows the left fixed part KOL, and FIG. 3 mainly shows the right fixed part KOR. FIG. 4 is an external view of one operation element PST. FIG. 5 is a cross-sectional view taken along the line AA in FIG.
[0027]
As shown in FIGS. 2 and 3, the left fixed part KOL is composed of a left fixed part upper half KOLa and a left fixed part lower half KOLb, and the right fixed part KOR is a right fixed part upper half KORa and a right fixed part below. It consists of half KORb. The left fixed part upper half KOLa, the right fixed part upper half KOLa, three photocouplers 15 to be described later disposed in both upper half KOLa and KORa, and 3 slidably provided in the vertical direction 3 A pitch designating unit SHI for designating the tone pitch is constituted by the two operating elements PST. In addition, a battery housing portion SYU that houses four AA batteries (not shown) mainly by the left fixed portion lower half KOLb, the right fixed portion upper half KORa, and the bottom lid / stand 6 disposed below them. Is configured.
[0028]
The three operating elements PST are configured in the same manner, and correspond to the three cylinders corresponding to each operating element PST in the left fixed part upper half KOLa and the right fixed part upper half KORa of the pitch designating part SHI. All the parts to be configured are configured similarly. Therefore, regarding the configuration description, one of the operation element PST and the corresponding cylinder portion will be described as a representative.
[0029]
As shown in FIG. 4, the operation element PST is formed by integrally attaching a pressed portion 33 and a main body 31 by a shaft portion 32, and attaching a cushioning material 34 and a spring 39. The buffer material 34 is formed in an annular shape with felt, urethane rubber, or the like, and is fixed to the lower portion of the pressed portion 33 by adhesion or the like. The spring 39 is attached to a spring attachment portion 35 extending downward from the spring attachment base 40 at the lower portion of the main body 31, and always urges the operation element PST upward. The main body 31 has a back plate portion 38 and side plate portions 36 and 37 and is formed in a U-shaped cross section. A shutter window 38 b is formed in the back plate portion 38. The back plate portion 38 including the shutter window 38b, the corresponding photocoupler 15, and the corresponding reflecting plate 23 described later constitute one “pitch switch portion”. Further, in the present embodiment, the back plate portion 38 including the shutter window 38b constitutes a “shutter function portion”.
[0030]
As shown in FIGS. 2 and 5, the operating element PST has a back surface 38 c of the back plate portion 38 facing the upper right half KORa of the right fixed portion, and side plate portions 36, 37 on the left fixed upper half KOLa side. It is installed so that it may enter. The pressed portion 33 of the operating element PST is always exposed upward from the fixed portion KO. FIG. 2 shows a state when the operation element PST (1) is not pressed (initial state), a state when the operation element PST (3) is finished pressing, and a state where the operation element PST (2) is removed. Has been.
[0031]
As shown in FIG. 2, two spring guide ribs 12 are integrally provided along the vertical direction at the lower portion of the left fixed upper half KOLa. Two lower limit stoppers 11 which are plate portions are provided. As will be described later, the lower limit stopper 11 abuts against the lower surface 31a (see FIG. 4) of the main body 31 of the operation element PST when the operation element PST is strongly pressed, and restricts the lower limit position of the operation element PST.
[0032]
As shown in FIG. 5, the substrate 14 is attached to the substrate attachment portion KOLaa integrally formed at two locations of the left fixed portion upper half KOLa, and the photocoupler 15 is fixed on the substrate 14. The photocoupler 15 has a pair of a light emitting unit 15a and a light receiving unit 15b (see FIG. 2). The light emitting unit 15a emits light and detects the operation of the operation element PST based on a change in the amount of received light in the light receiving unit 15b. Thereby, a switching operation is performed.
[0033]
As illustrated by the operation element PST (1) shown in FIG. 2, the photocoupler 15 is hidden by the back plate portion 38 of the operation element PST when not pressed. On the other hand, at the end of pressing, the photocoupler 15 is positioned in the shutter window 38b of the back plate portion 38 in the height direction, as exemplified by the operation element PST (3). As shown in FIGS. 2 and 5, two rail-shaped guide ribs 13 (13 </ b> A and 13 </ b> B) are integrally extended along the vertical direction on the left fixed upper half KOLa.
[0034]
On the other hand, as shown in FIG. 5, the right plate fixing upper half KORa is integrally formed with two reflecting plate mounting portions KORaa, and the reflecting plate 23 is attached to the reflecting plate mounting portion KORaa. The reflection plate 23 faces the photocoupler 15 and reflects light from the light emitting portion 15 a of the photocoupler 15. Further, as shown in FIGS. 3 and 5, two rail-shaped guide ribs 22 (22A, 22B) are substantially opposed to the guide ribs 13A, 13B in the vertical direction in the upper half KORa on the right side. It extends integrally along. As will be described later, the guide rib 13 and the guide rib 22 cooperate to guide the reciprocation of the operation element PST.
[0035]
In addition, as shown in FIG. 3, one spring guide rib 21 is integrally provided at the lower portion of the right-side fixed portion upper half KORa. The spring guide rib 21 is provided at an intermediate position between the two spring guide ribs 12 so as to face the two spring guide ribs 12. The spring guide rib 21 and the two spring guide ribs 12 enclose the spring 39 and serve to guide the spring 39 so that it does not bend excessively and properly expands and contracts when the operating element PST reciprocates.
[0036]
The left fixed part upper half KOLa and the left fixed part lower half KOLb are partitioned by a partition wall WL (see FIG. 2). The right fixed portion upper half KORa and the right fixed portion lower half KORb are partitioned by a partition wall WR (see FIG. 3). At the lower part of the partition wall WL, four holding terminal portions Y1 to Y4 serving as battery holding and terminals are attached. On the other hand, the bottom cover / stand 6 is also provided with four holding terminal portions (not shown) corresponding to the holding terminal portions Y1 to Y4. In the battery housing part SYU, each AA battery (not shown) is fitted and held in the spaces (four) between the corresponding holding terminal parts.
[0037]
In addition, protrusions T1, T2, and T3 are formed on the partition wall WL of the left fixed portion KOL, and concave portions K1, K2, and K3 fitting to these are formed on the partition wall WR of the right fixed portion KOR. Is done. By fitting the protrusions T1, T2, T3 and the recesses K3, K2, K1, a high-precision fitting mechanism is formed, and the fitting accuracy between the left side fixing part KOL and the right side fixing part KOR is high. .
[0038]
The power supply and operation mechanism unit EM is assembled as follows. First, the three operating elements PST to which the springs 39 are attached are arranged in the left fixed portion upper half KOLa, and the left case 5L and the right case 5R are joined by the parting line PL, so that the left fixed portion KOL and the right fixed portion are fixed. The part KOR is joined. Further, by screwing a screw (not shown) from the right fixing portion KOR side into the screw holes 16 to 19 of the left fixing portion KOL through the holes 26 to 29 of the right fixing portion KOR, the left fixing portion KOL and the right fixing portion are fixed. The part KOR is fixed. Then, four batteries (not shown) are accommodated in the battery accommodating unit SYU from below, and the bottom lid / stand 6 is attached from below the power supply and operation mechanism unit EM. The bottom lid / stand 6 is attached, for example, by fitting a fitting portion (not shown) of the bottom lid / stand 6 to each of the lower end portions KOLba and KORba of the left side fixing portion KOL and the right side fixing portion KOR. The mechanism for attaching the bottom lid / stand 6 is not limited to this.
[0039]
With this configuration, when the power source and the operation mechanism unit EM are assembled, the bottom lid / stand 6 which is the lower part of the battery housing unit SYU functions not only as a lid body of the battery housing unit SYU, but also the electronic musical instrument 1 as a whole. It also functions as a stand that stands horizontally. Thereby, since it is not necessary to provide a lid and a stand separately, the electronic musical instrument 1 can be stably placed with a simple configuration.
[0040]
The relationship between the fixed part KO and the operation element PST is as follows. That is, as shown in FIG. 5, the operation element PST is opposed to the guide ribs 13 </ b> A and 13 </ b> B, the facing surface 38 a that faces the guide ribs 13 </ b> A and 13 </ b> B of the back plate portion 38, and the inner side surfaces 36 a and 37 a of the side plate portions 36 and 37. (See FIG. 4). The operation element PST is also in contact with the guide ribs 22A and 22B at the back surface 38c. However, these contact states are set to such an extent that the respective parts can slide and the operation element PST can be smoothly reciprocated in the vertical direction.
[0041]
That is, the back plate portion 38 of the operation element PST is interposed between the guide rib 13 and the guide rib 22, and in the initial state (indicated by the operation element PST (1) in FIG. 2), the pressed portion 33 of the operation element PST is pressed. When operated, the operation of the operation element PST is guided in the left-right direction of the electronic musical instrument 1 by sliding the opposing surface 38a and the back surface 38c with the guide ribs 13 and 22, respectively. Further, the inner side surfaces 36a and 37a of the side plate portions 36 and 37 slide with the guide ribs 13A and 13B, respectively, so that the operation of the operation element PST is guided in the front-rear direction of the electronic musical instrument 1.
[0042]
When the operation element PST is lowered, the cushioning material 34 comes into contact with the upper end KOU of the fixed portion KO, and the operation of the operation element PST is buffered. (Indicated by the operator PST (3) in FIG. 2). Therefore, the buffer material 34 performs a stopper function. However, when the operating element PST is strongly pressed, immediately after the buffering material 34 is buffered, the buffering material 34 is further contracted, and the lower surface 31a of the main body 31 of the operating element PST is brought into contact with the lower limit stopper 11 so that the operation is performed. The child PST stops at the lower limit position.
[0043]
When release of the operation element PST is released, the operation element PST is raised by the urging force of the spring 39 to return to the original initial state. At that time, the operation element PST is guided by the guide rib 13 and the guide rib 22 in the same manner as in the lowering.
[0044]
In particular, both the guide rib 13 and the guide rib 22 are extended along the vertical direction that is the operation direction of the operating element PST, and the back plate portion 38 of the operating element PST and the entire length of the reciprocating operation of the operating element PST. The side plate portions 36 and 37 basically contact almost the entire surface. Accordingly, the guide ribs 13 and 22 are always slidably contacted with each other at at least one place in a surface contact state, so that the operation element PST is fixed to the fixed portion KO even in an operation having a long stroke like the operation element PST. On the other hand, there is almost no inclination, and a stable reciprocating motion with no rattling is ensured over the entire stroke, and there is durability.
[0045]
In the initial state, as described above, the photocoupler 15 is hidden by the back plate portion 38 because it is hidden behind the back plate portion 38 of the operation element PST. Here, it is desirable that at least a portion of the facing surface 38a of the back plate portion 38 facing the photocoupler 15 is subjected to a treatment such as black coating so that light is not easily reflected. At the end of pressing, the light from the light emitting portion 15a of the photocoupler 15 passes through the shutter window 38b, is reflected by the reflecting plate 23, and is received by the light receiving portion 15b, thereby detecting that the operating element PST has been pressed. The switch operates. As described above, the tone pitch is determined by the combination of the switch operations by the three operating elements PST and the input pitch by the mouth input unit 2.
[0046]
By the way, since the photocoupler 15 is disposed in the gap between the guide ribs 13A and 13B, the guide ribs 13A and 13B function to block disturbance light from the front-rear direction so that the light-receiving portion 15b of the photocoupler 15 is not easily received. Fulfill. Further, the lower limit stopper 11 functions to block disturbance light from below. Furthermore, since the reflecting plate 23 is disposed between the guide ribs 22A and 22B, the light reflected by the reflecting plate 23 is suppressed from entering the adjacent photocoupler 15 other than the photocoupler 15. Therefore, the guide ribs 13 and 22 and the lower limit stopper 11 perform not only a guide function and a lower limit position regulation function but also a diffraction prevention function, so that the detection accuracy by the photocoupler 15 is improved without complicating the configuration. In addition, you may form the reflecting plate 23 integrally with the right side fixing | fixed part upper half KORa.
[0047]
By the way, in order to play the electronic musical instrument 1, the player holds the electronic musical instrument 1 so that his / her finger comes close to or contacts the operation element PST like the trumpet. At that time, the posture of holding mainly the lower half part (near the battery housing part SYU) of the fixed part KO with a palm, thumb, little finger, etc. is taken naturally. Accordingly, the vicinity of the battery housing part SYU of the fixed part KO also serves as the grip part, and the configuration is simplified. In addition, the electronic musical instrument 1 has not only various heavy components disposed as close as possible to the battery housing unit SYU, but also a battery such as the processing circuit unit (not shown), the morning glory unit 4 and the mouth input unit 2. The center of gravity of the entire electronic musical instrument 1 is configured to be located in the battery housing unit SYU by appropriately setting the weight, arrangement, and size of all the components or parts including the components separated from the housing unit SYU. ing. As a result, the electronic musical instrument 1 can be stably and easily handled during performance.
[0048]
According to the present embodiment, the main body 31 of the operating element PST is in sliding contact with the rail-shaped guide ribs 13 and 22 in the surface contact state throughout the entire reciprocating operation of the operating element PST. Since the operation is guided over the entire stroke, there is no backlash, stable operation is expected, and durability is also achieved. Further, since the guide ribs 13 and 22 are formed integrally with the left side fixing portion KOL and the right side fixing portion KOR, respectively, the configuration is simple. Therefore, with a simple configuration, it is possible to ensure durability and realize a stable switch operation.
[0049]
According to the present embodiment, since the “pitch switch unit” is configured using the photocoupler 15, high durability and stable switch operation are expected by optical switch operation. Further, since the shutter window 38b is formed integrally with the operation element PST, the configuration is simple. Further, the guide ribs 13A and 13B have a simple configuration because they serve both as an operation guide function of the operation element PST and a light shielding function for disturbance light.
[0050]
Also according to the present embodiment, the battery housing part SYU is disposed below and in the vicinity of the pitch designating part SHI when the body part 3 is substantially horizontal. Usually, since the pitch designating part SHI is operated with a finger, the player's palm or the like is positioned below or in the vicinity thereof, so it is natural to provide a gripping part at that position. Therefore, the center of gravity of the entire electronic musical instrument 1 and the portion to be the gripping portion can be easily matched by design so that a heavy battery is accommodated below and in the vicinity of the pitch designation portion SHI. Can do. As a result, the center of gravity of the entire electronic musical instrument 1 is positioned inside the battery housing part SYU, which is naturally a gripping part, so that the electronic musical instrument 1 can be easily held stably during performance and the performance operation is easy. Therefore, stable maintenance during performance and good performance operation can be realized.
[0051]
Also according to the present embodiment, the battery housing part SYU mainly serves as the gripping part, and the bottom lid / stand 6 serves both as a function of the lid of the battery housing part SYU and a stand function of the electronic musical instrument 1. The configuration can be simplified.
[0052]
By the way, in the present embodiment, the electronic musical instrument 1 is configured mainly with the intention that the battery housing part SYU is used as a gripping part. However, as shown in a modified example in FIG. The constricted corrugated portions 41 to 43 may be formed to constitute the corrugated gripping portion 44. Thereby, a palm, a thumb, a little finger, etc. are easy to adjust to the wavy parts 41-43, and grip property improves more.
[0053]
Further, in the present embodiment, the opposing surface 38a, the back surface 38c, and the inner side surfaces 36a, 37a of the operation element PST are basically configured to be in surface contact with the guide rib 13 or the guide rib 22 over the entire surface. However, the present invention is not limited to this, and the same effect can be achieved even when the plurality of locations dispersed in the reciprocating direction are in sliding contact with each other in a surface contact state.
[0054]
For example, as shown in FIG. 7, a notch portion may be provided in a part of the sliding contact portion. FIG. 7A is an external view of an operation element PST of a modified example, and FIG. 7B is an external view showing a part of the left fixed portion upper half KOLa of the fixed portion KO of the modified example.
[0055]
As shown in FIG. 7A, a plurality of notches 36x and 37x are formed in the side plates 36 and 37 of the operation element PST, respectively, and as shown in FIG. A plurality of notches 13Ax and 13Bx are formed in the guide ribs 13A and 13B of KOLa, respectively. Further, a lubricant is appropriately applied to the notches 36x, 37x, 13Ax, and 13Bx. Further, the vertical arrangement pitch of the notches 36x and 37x is different from the vertical arrangement pitch of the notches 13Ax and 13Bx.
[0056]
By doing so, the side plates 36 and 37 of the operating element PST are dispersed at different positions in the operating direction over the entire stroke of the reciprocating operation of the operating element PST while ensuring the effect of the lubricant. The guide ribs 13A and 13B are in sliding contact with the guide ribs 13A and 13B at a plurality of locations, and the contact locations are not biased in the vertical direction due to the difference in arrangement pitch, so that the reciprocating operation is smoothly performed. Therefore, further excellent effects can be achieved with respect to ensuring durability and stable switch operation. Similarly to this, it is desirable to provide notches in the back surface 38c of the back plate portion 38 and the guide ribs 22A and 22B of the upper right half KORa to provide lubricant.
[0057]
From the viewpoint that the operation element PST is configured not to easily tilt with respect to the fixed portion KO in the reciprocating operation, the guide rib 22 and the operation element PST face each other over the entire stroke of the reciprocating operation of the operation element PST. The portions may be configured to be in sliding contact with each other at a plurality of locations where the positions in the operation direction of the operation element PST are different. Therefore, even if the surface contact state does not necessarily exist, Also good. In this case, for example, either one of the guide rib 22 or the side plate portions 36 and 37 may be formed flat, and the other may be formed in a concavo-convex shape so as to make point contact at a plurality of locations dispersed in the vertical direction. .
[0058]
In addition, although the structure of the guide ribs 13 and 22 is illustrated by two, the number is not limited to this, and may be three or more, for example. When there are three or more guide ribs 13, the photocoupler 15 may be disposed in at least one gap formed between the adjacent guide ribs 13.
[0059]
In the present embodiment, the rail-shaped guide ribs 13 and 22 are provided in the fixed portion KO, and the operation element PST, which is a movable body, is provided with a portion that is in sliding contact with the guide ribs 13 and 22. And the operation element PST may be reversed.
[0060]
Note that the shaft section 32 of the operating element PST may be configured by a plurality of parts instead of one, thereby increasing the section modulus and improving the strength and bending rigidity.
[0061]
(Second Embodiment)
In the second embodiment of the present invention, the configuration of the “pitch switch section” is different from that of the first embodiment, and the rest is the same as that of the first embodiment.
[0062]
FIG. 8 is a cross-sectional view showing a configuration of a pitch switch unit according to the second embodiment. The figure shows a state in which the operation element PST is cut in the longitudinal direction along the left-right direction of the electronic musical instrument 1.
[0063]
The arrangement and configuration of the photocoupler 15 are the same as those in the first embodiment. A black facing surface 123 that faces the photocoupler 15 is provided at a position corresponding to the reflecting plate 23. The black facing surface 123 is configured by, for example, applying black paint to a corresponding portion of the right fixed portion upper half KORa, but is not limited thereto, and the right fixed portion upper half KORa is treated with gold. A rough surface finish by a mold may be used, or a black plate that hardly reflects light may be provided in the upper right half KORa of the right fixed portion instead of the reflection plate 23.
[0064]
The operating element PSTZ in the present embodiment is different from the operating element PST in the first embodiment in that a projection 50 having a triangular cross section is provided. Furthermore, a process for efficiently reflecting light, for example, mirror finishing, is performed on the region of the opposed surface 138a of the back plate portion 138 that mainly faces the photocoupler 15 and the first inclined surface 50a of the protrusion 50. A white coating or a reflective member is applied. On the other hand, the second inclined surface 50 b of the protrusion 50 is subjected to a process that makes it difficult to reflect light, similar to the black facing surface 123. In the present embodiment, the back plate portion 38 including the facing surface 138a, the first inclined surface 50a, the second inclined surface 50b, and the shutter window 138b constitutes a “shutter function portion”.
[0065]
In such a configuration, in the initial state (the state shown in FIG. 8), the light emitted from the light emitting unit 15a is reflected by the opposing surface 138a and the first inclined surface 50a and received by the light receiving unit 15b. On the other hand, when the manipulator PSTZ is pressed and the top of the protrusion 50 passes through the light emitting portion 15a, the light emitted from the light emitting portion 15a is absorbed by the second inclined surface 50b, and also on the black facing surface 123 through the shutter window 138b. It is absorbed and hardly received by the light receiving portion 15b. At this time, since the protruding portion 50 is provided, the light emitted from the light emitting portion 15a is blocked by the protruding portion 50, and the amount of light directed toward the facing surface 138a is small, thereby preventing erroneous detection due to unnecessary light diffraction. Is done.
[0066]
According to the present embodiment, it is possible to accurately detect the reciprocating operation of the operation element PSTZ by partitioning the optical path of the light emitting unit 15a by the protrusion 50, thereby improving the switching accuracy.
[0067]
In addition, from the viewpoint of partitioning the optical path of the light emitting portion 15a or reducing unnecessary light diffraction, various shapes of the protrusion 50 are conceivable and are not limited to examples. Further, switching accuracy can be improved by minimizing the distance between the photocoupler 15 and the reflection plate or shutter plate.
[0068]
In the first and second embodiments, the battery does not necessarily have to be used for a power source for sound generation, and may be any battery that is used for some function. For example, it may be used only for performance data transmission to an external device, reception from an external device, data conversion, or performance recording. Therefore, regarding the pronunciation, an electronic musical instrument that can be acoustically produced is also an object of application of the present invention.
[0069]
The present invention is not limited to the trumpet type electronic musical instrument, and can be widely applied to a wind instrument type electronic musical instrument having a mouth input unit and a pitch designating unit, such as a euphonium or horn type.
[0070]
【The invention's effect】
As described above, according to the present invention, durability can be ensured and a stable switching operation can be realized with a simple configuration.
[Brief description of the drawings]
FIG. 1 is a plan view (FIG. (A)) and a right side view (FIG. (B)) of an electronic musical instrument according to a first embodiment of the present invention.
FIG. 2 is an internal configuration diagram mainly showing a left side fixing portion of a power source and an operation mechanism portion.
FIG. 3 is an internal configuration diagram mainly showing a right side fixing portion of a power source and an operation mechanism portion.
FIG. 4 is an external view of one operator.
5 is a cross-sectional view taken along line AA in FIG.
FIG. 6 is a diagram showing a modification of the power supply and operation mechanism unit.
FIGS. 7A and 7B are an external view (FIG. 7A) of an operation element according to a modified example and an external view showing a part of the upper half of the left fixed portion of the fixed portion according to the modified example.
FIG. 8 is a cross-sectional view showing a configuration of a pitch switch section in an electronic musical instrument according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Electronic musical instrument, 2 mouth input part, 3 Body part, 4 Morning glory part, 5L Left side case, 5R Right side case, 6 Bottom cover and stand, 13A, 13B Guide rib (guide protrusion), 15 Photocoupler (pitch switch) Part), 22A, 22B guide rib (guide protrusion), 23 reflector (part of pitch switch), 36, 37 side plate (guided part), 38, 138 back plate (sound Part of high switch part, guided part, shutter function part), 38b, 138b shutter window, KO fixing part, KOL left side fixing part, KOR right side fixing part, PST operator (movable body), EM power supply and operation mechanism part , SHI pitch designation part, SYU battery housing part

Claims (6)

An electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch,
The pitch designating unit includes a fixed unit fixed to the body unit, a movable unit that reciprocates with respect to the fixed unit when operated, and a switch operation based on the operation of the movable unit. And a pitch switch unit for designating the pitch,
A guide protrusion is integrally provided on at least one of the fixed portion and the movable body along the operation direction of the movable body, and a guided portion is integrally formed on the other of the fixed portion and the movable body. Provided in a plurality of locations where the mutually opposing portions of the guide ridge portion and the guided portion are different in the operation direction of the movable body over the entire stroke of the reciprocating motion of the movable body. An electronic musical instrument configured to guide reciprocation of the movable body by sliding contact. An electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch,
The pitch designating unit includes a fixed unit fixed to the body unit, a movable unit that reciprocates with respect to the fixed unit when operated, and a switch operation based on the operation of the movable unit. And a pitch switch unit for designating the pitch,
A guide protrusion is integrally provided on at least one of the fixed portion and the movable body along the operation direction of the movable body, and a guided portion is integrally formed on the other of the fixed portion and the movable body. The reciprocation of the movable body is performed by sliding at least one portion of the guided portion in a surface contact state with the guide protrusion over the entire stroke of the reciprocating operation of the movable body. An electronic musical instrument characterized in that the operation is guided. An electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch,
The pitch designating unit includes a fixed unit fixed to the body unit, a movable unit that reciprocates with respect to the fixed unit when operated, and a switch operation based on the operation of the movable unit. And a pitch switch unit for designating the pitch,
The pitch switch unit includes a photocoupler provided in the fixed unit, and a shutter function unit formed integrally with the movable body corresponding to the photocoupler ,
The fixed portion is provided with a stopper that abuts the movable body and regulates a lower limit position of the movable body, and the stopper functions to block disturbance light from below the movable body toward the photocoupler. An electronic musical instrument configured as described above . An electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch,
The pitch designating unit includes a fixed unit fixed to the body unit, a movable unit that reciprocates with respect to the fixed unit when operated, and a switch operation based on the operation of the movable unit. And a pitch switch unit for designating the pitch,
The fixed portion is provided with a plurality of guide protrusions along the operation direction of the movable body for slidingly contacting the movable body and guiding the reciprocating operation when the movable body is reciprocated.
The pitch switch unit includes a photocoupler provided in at least one gap formed between adjacent guide ridges among the plurality of guide ridges in the fixing unit, and the photocoupler Correspondingly, an electronic musical instrument comprising a shutter function part integrally formed with the movable body. An electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch,
The pitch designating unit includes a fixed unit fixed to the body unit, a movable unit that reciprocates with respect to the fixed unit when operated, and a switch operation based on the operation of the movable unit. And a pitch switch unit for designating the pitch,
The pitch switch unit includes a photocoupler provided in the fixed unit, a shutter function unit formed integrally with the movable body corresponding to the photocoupler, and a reflection that reflects light from the photocoupler. Comprising a board ,
A rail-shaped guide protrusion for slidingly contacting the movable body and guiding the reciprocating operation in the reciprocating motion of the movable body in the moving direction of the movable body. Provided along
The electronic musical instrument according to claim 1, wherein the reflector is provided on the rail-shaped guide protrusion . An electronic musical instrument having a body part, a mouth input part, and a pitch designating part provided on the body part for designating a pitch,
The pitch designating unit includes a fixed unit fixed to the body unit, a movable unit that reciprocates with respect to the fixed unit when operated, and a switch operation based on the operation of the movable unit. And a pitch switch unit for designating the pitch,
The pitch switch unit includes a photocoupler provided in the fixed unit, a shutter function unit formed integrally with the movable body corresponding to the photocoupler, and a reflection that reflects light from the photocoupler. Comprising a board ,
Corresponding to the movable body, two rail-shaped projecting ridge portions for sliding in contact with the movable body and guiding the reciprocating operation corresponding to the movable body are provided on the fixed portion. Provided along the direction of movement of
The electronic musical instrument according to claim 1, wherein the reflector is provided between the two guide protrusions on the fixed portion so as to face the photocoupler .

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